Natural wetlands are the single most important contributors of methane (CH4) to the atmosphere. Recent research has shown that the deposition of sulfate (SO42-) can substantially reduce the emission of this radiatively important gas from wetlands. However, the influence of temperature in regulating the extent of this effect is unclear. Peatlands also constitute an important store of S, so understanding the effect of S deposition on S dynamics within this store is important if we are to understand the interaction. The effect of enhanced SO42- deposition on CH4 fluxes and sulfur pools were investigated in peatland monoliths under controlled environment conditions. This enabled a close examination of effects at the onset of experimentally enha...
In natural coastal wetlands, high supplies of marine sulfate suppress methanogenesis. Coastal wetlan...
Abstract. This field manipulation study tested the effect of weekly pulses of solutions of NH4NO3 an...
The reduction of sulfate (SO42−) represents an alternative terminal electron acceptor for the oxidat...
Natural wetlands are the single most important contributors of methane (CH4) to the atmosphere. Rec...
The effect of acid rain SO42− deposition on peatland CH4 emissions was examined by manipulating SO42...
Acid rain sulphate (SO42-) deposition is a known suppressant of methane (CH4) emission from wetlands...
A variety of approaches, spanning a range of spatial and temporal scales, were applied to the invest...
Natural wetlands form the largest methane (CH4) source to the atmosphere. A collection of recent fie...
Atmosphere-peatland exchange of reduced sulfur gases was determined seasonally in fen in NH, and in ...
Methane emitting wetlands are subject to pollutant sulfur deposition from both anthropogenic and vol...
[1] Sulfur cycling in peatlands may affect global CH4 emissions by suppression of methanogenesis thr...
Peatland methane emissions have been proposed to decrease during summer drought as the onset of more...
Sulfur gases are important components of the global cycle of S. They contribute to the acidity of pr...
Wetlands are a potent source of the radiatively important gas methane (CH4). Recent findings have de...
Wetlands are a potent source of the radiatively important gas methane (CH4). Recent findings have de...
In natural coastal wetlands, high supplies of marine sulfate suppress methanogenesis. Coastal wetlan...
Abstract. This field manipulation study tested the effect of weekly pulses of solutions of NH4NO3 an...
The reduction of sulfate (SO42−) represents an alternative terminal electron acceptor for the oxidat...
Natural wetlands are the single most important contributors of methane (CH4) to the atmosphere. Rec...
The effect of acid rain SO42− deposition on peatland CH4 emissions was examined by manipulating SO42...
Acid rain sulphate (SO42-) deposition is a known suppressant of methane (CH4) emission from wetlands...
A variety of approaches, spanning a range of spatial and temporal scales, were applied to the invest...
Natural wetlands form the largest methane (CH4) source to the atmosphere. A collection of recent fie...
Atmosphere-peatland exchange of reduced sulfur gases was determined seasonally in fen in NH, and in ...
Methane emitting wetlands are subject to pollutant sulfur deposition from both anthropogenic and vol...
[1] Sulfur cycling in peatlands may affect global CH4 emissions by suppression of methanogenesis thr...
Peatland methane emissions have been proposed to decrease during summer drought as the onset of more...
Sulfur gases are important components of the global cycle of S. They contribute to the acidity of pr...
Wetlands are a potent source of the radiatively important gas methane (CH4). Recent findings have de...
Wetlands are a potent source of the radiatively important gas methane (CH4). Recent findings have de...
In natural coastal wetlands, high supplies of marine sulfate suppress methanogenesis. Coastal wetlan...
Abstract. This field manipulation study tested the effect of weekly pulses of solutions of NH4NO3 an...
The reduction of sulfate (SO42−) represents an alternative terminal electron acceptor for the oxidat...